Literature DB >> 21059815

Gene expression profiles of estrogen receptor-positive and estrogen receptor-negative breast cancers are detectable in histologically normal breast epithelium.

Kelly Graham1, Xijin Ge, Antonio de Las Morenas, Anusri Tripathi, Carol L Rosenberg.   

Abstract

PURPOSE: Previously, we found that gene expression in histologically normal breast epithelium (NlEpi) from women at high breast cancer risk can resemble gene expression in NlEpi from cancer-containing breasts. Therefore, we hypothesized that gene expression characteristic of a cancer subtype might be seen in NlEpi of breasts containing that subtype. EXPERIMENTAL
DESIGN: We examined gene expression in 46 cases of microdissected NlEpi from untreated women undergoing breast cancer surgery. From 30 age-matched cases [15 estrogen receptor (ER)+, 15 ER-] we used Affymetryix U133A arrays. From 16 independent cases (9 ER+, 7 ER-), we validated selected genes using quantitative real-time PCR (qPCR). We then compared gene expression between NlEpi and invasive breast cancer using four publicly available data sets.
RESULTS: We identified 198 genes that are differentially expressed between NlEpi from breasts with ER+ (NlEpiER+) compared with ER- cancers (NlEpiER-). These include genes characteristic of ER+ and ER- cancers (e.g., ESR1, GATA3, and CX3CL1, FABP7). qPCR validated the microarray results in both the 30 original cases and the 16 independent cases. Gene expression in NlEpiER+ and NlEpiER- resembled gene expression in ER+ and ER- cancers, respectively: 25% to 53% of the genes or probes examined in four external data sets overlapped between NlEpi and the corresponding cancer subtype.
CONCLUSIONS: Gene expression differs in NlEpi of breasts containing ER+ compared with ER- breast cancers. These differences echo differences in ER+ and ER- invasive cancers. NlEpi gene expression may help elucidate subtype-specific risk signatures, identify early genomic events in cancer development, and locate targets for prevention and therapy. ©2010 AACR.

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Year:  2010        PMID: 21059815      PMCID: PMC3059257          DOI: 10.1158/1078-0432.CCR-10-1369

Source DB:  PubMed          Journal:  Clin Cancer Res        ISSN: 1078-0432            Impact factor:   12.531


  59 in total

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3.  Immunoglobulin G expression in carcinomas and cancer cell lines.

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4.  Gene expression in histologically normal epithelium from breast cancer patients and from cancer-free prophylactic mastectomy patients shares a similar profile.

Authors:  K Graham; A de las Morenas; A Tripathi; C King; M Kavanah; J Mendez; M Stone; J Slama; M Miller; G Antoine; H Willers; P Sebastiani; C L Rosenberg
Journal:  Br J Cancer       Date:  2010-03-02       Impact factor: 7.640

5.  Positive cross-regulatory loop ties GATA-3 to estrogen receptor alpha expression in breast cancer.

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6.  Transformation of different human breast epithelial cell types leads to distinct tumor phenotypes.

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Journal:  Breast Cancer Res       Date:  2007       Impact factor: 6.466

8.  Identification of conserved gene expression features between murine mammary carcinoma models and human breast tumors.

Authors:  Jason I Herschkowitz; Karl Simin; Victor J Weigman; Igor Mikaelian; Jerry Usary; Zhiyuan Hu; Karen E Rasmussen; Laundette P Jones; Shahin Assefnia; Subhashini Chandrasekharan; Michael G Backlund; Yuzhi Yin; Andrey I Khramtsov; Roy Bastein; John Quackenbush; Robert I Glazer; Powel H Brown; Jeffrey E Green; Levy Kopelovich; Priscilla A Furth; Juan P Palazzo; Olufunmilayo I Olopade; Philip S Bernard; Gary A Churchill; Terry Van Dyke; Charles M Perou
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10.  Age-specific differences in oncogenic pathway deregulation seen in human breast tumors.

Authors:  Carey K Anders; Chaitanya R Acharya; David S Hsu; Gloria Broadwater; Katherine Garman; John A Foekens; Yi Zhang; Yixin Wang; Kelly Marcom; Jeffrey R Marks; Sayan Mukherjee; Joseph R Nevins; Kimberly L Blackwell; Anil Potti
Journal:  PLoS One       Date:  2008-01-02       Impact factor: 3.240
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  36 in total

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2.  Gene expression abnormalities in histologically normal breast epithelium from patients with luminal type of breast cancer.

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5.  Development of Malignancy-Risk Gene Signature Assay for Predicting Breast Cancer Risk.

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Review 6.  Genomic Changes in Normal Breast Tissue in Women at Normal Risk or at High Risk for Breast Cancer.

Authors:  David N Danforth
Journal:  Breast Cancer (Auckl)       Date:  2016-08-17

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8.  Characterizing the heterogeneity of triple-negative breast cancers using microdissected normal ductal epithelium and RNA-sequencing.

Authors:  Milan Radovich; Susan E Clare; Rutuja Atale; Ivanesa Pardo; Bradley A Hancock; Jeffrey P Solzak; Nawal Kassem; Theresa Mathieson; Anna Maria V Storniolo; Connie Rufenbarger; Heather A Lillemoe; Rachel J Blosser; Mi Ran Choi; Candice A Sauder; Diane Doxey; Jill E Henry; Eric E Hilligoss; Onur Sakarya; Fiona C Hyland; Matthew Hickenbotham; Jin Zhu; Jarret Glasscock; Sunil Badve; Mircea Ivan; Yunlong Liu; George W Sledge; Bryan P Schneider
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9.  Relationship of mammographic density and gene expression: analysis of normal breast tissue surrounding breast cancer.

Authors:  Xuezheng Sun; Gretchen L Gierach; Rupninder Sandhu; Tyisha Williams; Bentley R Midkiff; Jolanta Lissowska; Ewa Wesolowska; Norman F Boyd; Nicole B Johnson; Jonine D Figueroa; Mark E Sherman; Melissa A Troester
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10.  Sample parameters affecting the clinical relevance of RNA biomarkers in translational breast cancer research.

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